Abstract
The enzyme UDP-N-acetylglucosamine (UDP-NAG) enolpyruvyltransferase (MurA) catalyzes the formation of enolpyruvyl-UDP-NAG, a precursor in peptidoglycan biosynthesis. The residue at position 115 in MurA has been proposed to act as a general acid in the enzymatic reaction. This is also the primary site of action of the antibiotic fosfomycin. In this paper, the pK(a) of Cys-115 has been determined to be 8.3, by titration of Enterobacter cloacae MurA with the alkylating agent iodoacetamide as a function of pH. Use of site-directed mutagenesis has established that only C115 is essential for catalysis, and the three other cysteine residues (C251, C354, and C381) are nonessential. Mass spectrometric analysis demonstrated that C115 is not alkylated at pH <7, but is alkylated significantly at pH >7. Measurement of the enzymatic inhibition by iodoacetamide as a function of pH showed maximum inhibition at pH >9, with a second-order rate constant of inhibition of 44 M(-)(1) s(-)(1) at pH 10. The presence of either one of the substrates did not influence the inactivation behavior, while the presence of both substrates resulted in a 5-fold reduction in the extent of alkylation. The covalent species that results from PEP bound to C115 of MurA exhibited 50-100-fold increased resistance against alkylation by iodoacetamide. These results imply that C115 is appreciably protonated at physiological pH and, therefore, is capable of acting as a proton donor in the enzyme-catalyzed reaction. However, it also implies that C115 is appreciably deprotonated at physiological pH also, whereupon the resultant thiolate nucleophile may play an important role in the formation of the covalent O-phosphothioketal species, whose role in catalysis is yet to be established.
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